The volume of the water will increase as temperature increases, since the distance of the particles in the water between each other increases, making the water "expand", increasing the volume of the water.

The results support the hypothesis stated above, as the temperature of the water rises, the volume increases as well.

WMAP image of the (extremely tiny) anisotropies in...

diagram of a capillary tube used in some real time...

English: Conceptual sketch showing water in a capi...

The volume does not increase proportionally with the temperature. The graph shows that the results I measured were not very accurate since the absolute zero I obtained after drawing the line of best fit is -435ÃÂ°C instead of the accepted value of -273.15ÃÂ°C, there is a gap of 162.15ÃÂ°C between those two values. The graph shows how inaccurate my readings were, the data points do not increase constantly, instead, the slope one would obtain, if one were to draw a line connecting those pints would approach 0, in other words, the line would become horizontal (similar to a cubic function).

There were many errors which manipulated this experiment. First one is as always human error, the use of analogue measuring devices meant that one had to read off the values with the human eye and since humans tend to round values...